WO2023037426A1 - Power receiving and distributing equipment management device, power receiving and distributing equipment management method, and program - Google Patents

Abstract

Power receiving and distributing equipment is constructed by assembling a plurality of devices, resulting in a difficulty in distinguishing between inspection items set for respective devices to perform inspection work in some cases. Thus, there is a problem in that an attempt to associate inspection results for the plurality of devices in the power receiving and distributing equipment with each other results in a failure to associate inspection results for a plurality of relatively close devices with the respective devices.　The present disclosure enables inspection results for power receiving and distributing equipment to be associated with the inspection items of respective devices.

Description

POWER RECEIVING AND DISTRIBUTION EQUIPMENT CONTROL METHOD AND PROGRAM

The present disclosure relates to a power receiving/distributing facility management device, a power receiving/distributing facility management system, and a power receiving/distributing facility management method for managing a plurality of devices arranged in a power receiving/distributing facility.

Facilities that use a lot of electricity at once, such as buildings and factories, are equipped with power receiving and distribution equipment that converts high-voltage electricity sent from power plants to low-voltage power inside the facility and distributes the power to equipment within the facility. Power receiving and distributing equipment is composed of various devices such as circuit breakers, transformers, and measuring devices for transforming and distributing high-voltage electricity. When inspecting such power receiving and distribution equipment, workers go to the site where the power receiving and distribution equipment is installed, check the inspection items set for each device, such as the appearance, odor and temperature of the equipment, and check the inspection results was recorded as

JP-A-8-019178

As a device for supporting such maintenance, Patent Literature 1 discloses a power system facility maintenance support device that associates and displays individual components of the power system and patrol/inspection data thereof. However, since the power receiving and distributing equipment is configured by pumping up a plurality of devices, it may be difficult to perform inspection work by separating inspection items set for each device. For example, if there is the same inspection item, "presence or absence of strange odors," for multiple pieces of equipment, workers cannot distinguish the strange odors from each piece of equipment. and recorded one inspection result for multiple pieces of equipment.
Therefore, even if an attempt is made to associate inspection results with each device in a power receiving/distribution facility like the power system equipment maintenance support device described in Patent Document 1, it is impossible to associate inspection results for a plurality of collective devices with each device. I had a problem.

The present disclosure has been made to solve the above problems, and provides a power receiving/distributing facility management device that associates inspection results of power receiving/distributing facilities with inspection items for each device.

A power receiving and distribution facility management device according to the present disclosure includes an individual inspection item acquisition unit that acquires individual inspection items corresponding to a plurality of devices arranged in the facility, and among the individual inspection items acquired by the individual inspection item acquisition unit, , an integrated inspection item generation unit that extracts inspection items common to multiple devices as common inspection items and generates integrated inspection items that integrate the extracted common inspection items and individual inspection items, and an integrated inspection item generation unit An acquisition unit that acquires integrated inspection results corresponding to the generated integrated inspection items, and a recording unit that records the integrated inspection results acquired by the acquisition unit in association with individual inspection items corresponding to the integrated inspection items. is.

According to the present disclosure, it is possible to associate the inspection results of the power receiving and distribution equipment with the inspection items of each device.

1 is a configuration diagram showing a configuration of a power reception/distribution management device according to Embodiment 1; FIG. 4 is an explanatory diagram showing a configuration of individual inspection items acquired by an individual inspection item acquiring unit of the power reception/distribution management device according to Embodiment 1; FIG. FIG. 4 is an explanatory diagram showing a configuration of an integrated inspection item generated by an integrated inspection item generating unit of the power reception/distribution management device according to the first embodiment; FIG. 4 is an explanatory diagram showing a configuration of integrated inspection results acquired by an acquisition unit of the power reception/distribution management device according to the first embodiment; FIG. 4 is an explanatory diagram of inspection results corresponding to individual inspection items recorded by the recording unit of the power receiving and distribution facility management apparatus according to Embodiment 1; 4 is a flow chart showing the operation of the power receiving/distribution facility management device according to the first embodiment; FIG. 4 is an explanatory diagram showing that the information of the device A is associated with the single-line diagram DB and the inspection result DB by the power receiving/distribution facility management device according to the first embodiment; 1 is a hardware configuration diagram of a power receiving/distribution facility management device according to an embodiment; FIG.

Embodiment 1.
The power receiving/distribution facility management apparatus 100 according to the first embodiment will be described below. The power receiving/distribution equipment management device 100 is a device for managing inspection results of a plurality of devices arranged in equipment such as power receiving/distribution equipment. The equipment includes division switches, disconnecting switches, load switches, circuit breakers, transformers, protective relays, control devices, measuring equipment, circuit breakers for wiring, and the like, which constitute power receiving and distribution equipment. In this embodiment, for the sake of simplification, a case of inspecting three devices, ie, a circuit breaker, a transformer, and a measuring device arranged in a facility will be described.

FIG. 1 is a configuration diagram showing the configuration of a power receiving/distribution facility management apparatus 100 according to the first embodiment. The power receiving/distribution facility management apparatus 100 receives inspection results from the inspection result DB 203 and single-line wiring diagrams from the single-line diagram DB 303 , and outputs this information to the display unit 400 in association with individual devices.
The power receiving and distribution facility management apparatus 100 includes an individual inspection item acquisition unit 101 that acquires individual inspection items corresponding to a plurality of devices arranged in the facility, and among the individual inspection items acquired by the individual inspection item acquisition unit 101, An integrated inspection item generation unit 102 that extracts inspection items common to a plurality of devices as common inspection items and generates an integrated inspection item that integrates the extracted common inspection items and individual inspection items, and an integrated inspection item generation unit 102 An acquisition unit 103 that acquires integrated inspection results corresponding to the integrated inspection items generated by the above, and a recording unit 104 that records the integrated inspection results acquired by the acquisition unit 103 in association with individual inspection items corresponding to the integrated inspection items. Prepare.

The individual inspection item acquisition unit 101 acquires individual inspection items corresponding to a plurality of devices arranged in the facility.
Individual inspection items are inspection items set for each piece of equipment. For example, for circuit breakers, the number of operations, grounding, overheating, and discoloration; for transformers, oil temperature, nitrogen pressure, oil level, leakage, and corrosion noise. There are items such as In the present embodiment, as shown in FIG. 2, there are individual inspection items such as the number of times of operation, odor, noise, and temperature for the circuit breaker, oil temperature, nitrogen pressure, odor, noise, and noise for the measuring equipment. described as. These individual inspection items may be data of inspection items corresponding to the equipment, and are input by the user, for example.

The integrated inspection item generation unit 102 extracts inspection items common to a plurality of devices from among the individual inspection items acquired by the individual inspection item acquisition unit 101 as common inspection items, and combines the extracted common inspection items and individual inspection items. Generate integrated checklists.
A common inspection item is an inspection item common to two or more devices among the individual inspection items acquired by the individual inspection item acquiring unit 101 . "Common" refers to items that are collectively inspected for a plurality of devices among the individual inspection items. For example, as described above, when a worker inspects whether or not there is an offensive odor, it is difficult to judge individual equipment. A method of extracting common inspection items may be to extract individual inspection items common to a plurality of devices and use them as common inspection items, or to extract common inspection items by a user. If there are individual inspection items as shown in FIG. 2, odor is a common inspection item common to circuit breakers and transformers, and abnormal noise is a common inspection item common to circuit breakers, transformers, and measuring equipment.

The integrated inspection item generation unit 102 generates integrated inspection items by integrating common inspection items and individual inspection items.
Specifically, the items that are not extracted as the common inspection items and the extracted common inspection items among the individual inspection items are set as the integrated inspection items. FIG. 3 is an explanatory diagram showing the configuration of the integrated inspection items generated by the integrated inspection item generation unit 102 of the power receiving/distribution facility management apparatus 100 of the first embodiment. The integrated inspection items are the number of operations, temperature, oil temperature, nitrogen pressure, odor, and noise, and these are the integrated inspection items indicating the inspection items of the entire facility. Here, the common inspection item may be associated with the device corresponding to the individual inspection item. In Fig. 3, each device is associated with the integrated inspection item, and the number of operations and temperature are circuit breakers, oil temperature and nitrogen pressure are transformers, odors are circuit breakers and transformers, abnormal noises are circuit breakers, transformers It is shown to be associated with instruments and measuring instruments. The operator inspects the equipment for this integrated inspection item.

The acquisition unit 103 acquires integrated inspection results corresponding to the integrated inspection items generated by the integrated inspection item generation unit 102 .
The acquisition unit 103 acquires the integrated inspection result from the inspection result DB 203 . A worker who inspects equipment performs inspections on the integrated inspection items when inspecting the equipment, and obtains inspection results 201 corresponding to the integrated inspection items. FIG. 4 is an explanatory diagram showing the structure of inspection results acquired by the acquiring unit 103 of the power receiving/distribution facility management apparatus according to the first embodiment. FIG. 4 shows the results of the integrated inspection that the number of operations is normal, the temperature is normal, the oil temperature is normal, the nitrogen pressure is normal, there is no abnormal smell, and there is no abnormal noise. The number of operations, temperature, oil temperature, and nitrogen pressure are described as "normal", but specific numerical values may be listed here, and the contents of the inspection results should be those that show the inspection results for the inspection items. Just do it. Also, the inspection result may include the location and inspection date. The inspection result shown in FIG. 4 describes that the place is electric room 1 and the inspection date is March 1, 2021. The inspection result 201 is information such as electronic data in PDF, JPG, CAD, or the like, or information such as a PDF version of paper on which the inspection result is written. The inspection result is converted into a format that can be saved in the inspection result DB 203 by the inspection result import unit 202, and stored in the inspection result DB 203 together with information on the inspection location and inspection date. The acquisition unit 103 accesses the inspection result DB as necessary to obtain inspection result information, which is the integrated inspection result.

The recording unit 104 records the integrated inspection result acquired by the acquisition unit 103 in association with the individual inspection item corresponding to the integrated inspection item.
The recording unit 104 records the integrated inspection result in association with the equipment associated when the integrated inspection item generation unit 102 generates the integrated inspection item. As shown in FIG. 3, the equipment is associated with the integrated inspection items based on the common inspection items and individual inspection items from which the integrated inspection items are integrated. By referring to this, the integrated inspection results are recorded in association with the individual inspection items. FIG. 5 is an explanatory diagram of inspection results corresponding to individual inspection items recorded by the recording unit 104 of the power receiving/distribution facility management apparatus 100 according to the first embodiment. From the results of the integrated inspection, the circuit breaker operates normally, no odors, no noises, temperature is normal, transformer oil temperature is normal, nitrogen pressure is normal, odors are normal, abnormal noises are normal, and measuring equipment is abnormal. The inspection result that the sound is normal is associated and recorded.

It should be noted that the recording unit 104 associates with the associated equipment when generating the integrated inspection item. You may make it correspond and an individual inspection item should just be matched from the integrated inspection item corresponding to the integrated inspection result.

A single-line wiring diagram is also input to the recording unit 104 . A single-line connection diagram 301 is a connection diagram showing the electric system of the equipment of the facility with a single line. The drawing format is electronic data such as PDF, JPG, or CAD, or information such as a drawing printed on paper that has been scanned and converted to PDF. The single-line diagram 301 is converted by the single-line diagram import unit 302 into a format that can be stored in the single-line diagram DB 303 and recorded in the single-line diagram DB 303 . The recording unit 104 associates the equipment corresponding to the individual inspection item with the corresponding equipment in the single-line diagram. The device association may be performed by the user, or may be automatically associated by machine learning.
Although the single-line diagram information is used this time, other information may be used as long as it includes information on equipment and information indicating the relationship between devices arranged in the equipment. For example, equipment information includes information such as physical size, rated voltage, allowable current, set value, position information, and communication address of equipment. In addition, as information indicating the relationship between the devices arranged in the facility, there is a physical inclusion relationship, an electrical connection relationship, a communication line relationship, and the like.

The display unit 400 receives information for display from the recording unit 104 of the power distribution facility management device 100 in response to a request from the user. For example, when receiving a request to display a single-line diagram from a worker, the display unit 400 receives the single-line diagram from the single-line diagram DB 303 through the power receiving/distribution facility management device 100 and displays it. Then, when the operator selects a device on the single-line diagram, the inspection result is received from the inspection result DB 203 through the power receiving/distribution facility management device 100, and the inspection result is displayed. At this time, since the inspection results are associated with each other by the power receiving/distribution facility management device 100, only the inspection results related to the selected device can be displayed. When the inspection result includes an inspection date, the user can specify and display any inspection date from the inspection results stored in the inspection result DB.

Next, the operation of the power receiving/distribution equipment management device of the first embodiment will be described.
FIG. 6 is a flow chart showing the operation of the power receiving/distribution facility management device 100 according to the first embodiment.

First, in step S01, the individual inspection item acquisition unit 101 acquires individual inspection items corresponding to a plurality of devices arranged in the facility. In the present embodiment, as shown in FIG. 2, there are individual inspection items such as the number of times of operation, odor, noise, and temperature for the circuit breaker, oil temperature, nitrogen pressure, odor, noise, and noise for the measuring equipment. .

Next, in step S<b>02 , the integrated inspection item generation unit 102 extracts, from the individual inspection items acquired by the individual inspection item acquisition unit 101 , inspection items common to a plurality of devices as common inspection items.
Specifically, individual inspection items that are common among a plurality of devices are extracted and extracted as common inspection items. In FIG. 2, odor is a common inspection item common to circuit breakers and transformers, and abnormal noise is a common inspection item common to circuit breakers, transformers, and measuring equipment.

In step S03, the integrated inspection item generation unit 102 generates integrated inspection items by integrating the common inspection items and the individual inspection items so that the item contents of the common inspection items and the individual inspection items do not overlap. Specifically, among the individual check items, the items that are not common check items and the common check items are set as integrated check items. As shown in FIG. 3, the integrated inspection items are the number of times of operation, temperature, oil temperature, nitrogen pressure, abnormal odor, and abnormal noise. In addition, the common inspection items correspond to the equipment corresponding to the individual inspection items, and the integrated inspection items also include the number of operations and temperature for circuit breakers, oil temperature and nitrogen pressure for transformers, and odors for circuit breakers and transformers. , abnormal noises are associated with circuit breakers, transformers and measuring devices.
This step makes it possible to summarize the items to be inspected for the entire facility. If the operator checks the integrated check items, it means that the maintenance as a whole has been checked.

In step S<b>04 , the acquisition unit 103 acquires integrated inspection results corresponding to the integrated inspection items generated by the integrated inspection item generation unit 102 .
Specifically, the acquiring unit 103 obtains the integrated inspection results such as normal operation count, normal temperature, normal oil temperature, normal nitrogen pressure, no abnormal odor, and no abnormal noise as shown in FIG. Acquired from DB 203 .

In step S05, the recording unit 104 records the integrated inspection result acquired by the acquiring unit 103 in association with the individual inspection item corresponding to the integrated inspection item.
The recording unit 104 records the integrated inspection result in association with the equipment associated when the integrated inspection item generation unit generates the integrated inspection item. Devices are associated with the integrated inspection items based on the common inspection items and individual inspection items from which the integrated inspection items are integrated. By referring to this, the inspection result for each individual inspection item of each device as shown in FIG. 5 is recorded. From the results of the integrated inspection, the circuit breaker operates normally, no odors, no noises, temperature is normal, transformer oil temperature is normal, nitrogen pressure is normal, odors are normal, abnormal noises are normal, and measuring equipment is abnormal. The inspection result that the sound is normal is associated and recorded.

In this way, the power receiving/distribution facility management device 100 can record the integrated inspection results including the inspection results for a plurality of equipment in association with the inspection results for the individual inspection items, which are the inspection items for each equipment. . Therefore, for example, when the user wants to obtain past inspection results for one device, the power receiving/distribution facility management apparatus 100 can easily extract only the inspection results corresponding to that device. Therefore, when the facility operator investigates the cause of the failure, it is possible to quickly acquire information about individual devices, and the time required for failure analysis can be shortened.

As described above, according to the power receiving/distribution facility management device 100 according to the first embodiment, integrated inspection results including collective inspection results for a plurality of devices are recorded in association with individual inspection items for each device. The inspection result of the power receiving and distribution equipment can be associated with the inspection items of each device.

The inspection result may be accumulated in the inspection result DB 303 each time the worker performs an inspection corresponding to the integrated inspection items for the equipment. FIG. 7 is an explanatory diagram showing how the power receiving/distribution facility management apparatus according to the first embodiment associates the information of the device A with the single-line diagram DB and the inspection result DB. In the single-line connection diagram 203, information on the relationship between the facility A, the power source, the electric wire, the device A, the electric wire, and the device B is recorded. The inspection result DB 203 stores three inspection results with different inspection dates. For example, device A on the single-line diagram is associated with three individual inspection results regarding device A by the power distribution facility management device 100 . Therefore, when the user selects the device A on the single-line diagram displayed on the display unit, three individual inspection results with different inspection conditions for the device A can be displayed.

The above embodiment is executed by the hardware configuration diagram shown in FIG. FIG. 8 is a configuration diagram in the case of hardware implementation. The individual inspection item acquisition unit 101, the integrated inspection item generation unit 102, the acquisition unit 103, and the recording unit 104 of the power receiving/distribution facility management apparatus 100 are executed by the processor 501, which is an arithmetic device, and stored in the memory 502 as necessary. Inspection results, single-line connection diagrams, selection of inspection items, and the like are input through an input interface 503, which is an input device. An output to be displayed on the display unit 400 is output by an output interface 504 that is an output device. Inspection results and single-line connection diagrams are stored in the database 505 . Note that the processing of the arithmetic unit may be implemented as an electric circuit.

100. Power receiving/distribution equipment management device 101 . Individual inspection item acquisition unit 102 . Integrated inspection item generation unit 103 . Acquisition unit 104 . Recording unit 201 . Inspection result 202. Inspection result import unit 203 . Inspection result DB
301. Single line diagram 302. Single-line diagram import unit 303 . Single line diagram DB
400. Display unit 501 . Processor 502 . Memory 503 . input interface 504 . Output interface 505 . database

Claims (5)

1. an individual inspection item acquiring unit for acquiring individual inspection items corresponding to a plurality of devices arranged in a facility;
   Among the individual inspection items acquired by the individual inspection item acquisition unit, an inspection item common to the plurality of devices is extracted as a common inspection item, and an integrated inspection is performed by integrating the extracted common inspection item and the individual inspection item. an integrated inspection item generation unit that generates items;
   an acquisition unit that acquires an integrated inspection result corresponding to the integrated inspection item generated by the integrated inspection item generation unit;
   and a recording unit that records the integrated inspection result acquired by the acquisition unit in association with the individual inspection item corresponding to the integrated inspection item.
2. The recording unit
   2. The power receiving/distribution facility management apparatus according to claim 1, wherein information indicating the relationship between the devices of the facility is acquired, and the devices of the acquired information and the devices corresponding to the individual inspection items are associated with each other.
3. The recording unit
   3. The power receiving/distribution equipment management apparatus according to claim 2, wherein the device of the acquired information and the device corresponding to the individual inspection item are associated with each other by machine learning.
4. an individual inspection item acquiring step of acquiring individual inspection items corresponding to a plurality of devices arranged in the facility;
   Among the individual inspection items acquired by the individual inspection item acquisition step, an inspection item common to the plurality of devices is extracted as a common inspection item, and an integrated inspection is performed by integrating the extracted common inspection item and the individual inspection item. an integrated inspection item generation step for generating items;
   an acquisition step of acquiring an integrated inspection result corresponding to the integrated inspection item generated in the integrated inspection item generating step;
   and a recording step of recording the integrated inspection result acquired in the acquiring step in association with the individual inspection item corresponding to the integrated inspection item.
5. an individual inspection item acquiring step of acquiring individual inspection items corresponding to a plurality of devices arranged in the facility;
   Among the individual inspection items acquired by the individual inspection item acquisition step, an inspection item common to the plurality of devices is extracted as a common inspection item, and an integrated inspection is performed by integrating the extracted common inspection item and the individual inspection item. an integrated inspection item generation step for generating items;
   an acquisition step of acquiring an integrated inspection result corresponding to the integrated inspection item generated in the integrated inspection item generating step;
   and a recording step of recording the integrated inspection result acquired in the acquiring step in association with the individual inspection item corresponding to the integrated inspection item.

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